CN204174365U - A kind of artificial transparent stone enhanced fiber shield and preparation facilities thereof - Google Patents

Abstract

The utility model discloses a kind of artificial transparent stone enhanced fiber shield and preparation facilities thereof, artificial transparent stone enhanced fiber shield, comprise radial optical fiber sheet, radial optical fiber sheet is provided with more than twice and is interspersed in the broadwise stitching fiberglass yarn be stitched into one in radial optical fiber sheet and by radial optical fiber sheet; Radial optical fiber sheet restraints above glass optical fiber beam diameter to being closely consecutively arranged to form by two, glass optical fiber bundle is closely consecutively arranged to form by the glass optical fiber monofilament radial direction of more than two, glass optical fiber filament diameter is 30 μm-70 μm, and glass optical fiber monofilament surface is provided with chemical enhancer layer; The end of radial optical fiber sheet at least one end has length to be not more than the sizing section of 50mm.The utility model optical fiber shield can when making transparent stone, and directly cut out use, facilitate practical operation, light transmission is good, and illuminating shape is naturally continuous, random good, and can increase stone material resistance to compression and impact strength.

Description

A kind of artificial transparent stone enhanced fiber shield and preparation facilities thereof

Technical field

The utility model relates to a kind of artificial transparent stone enhanced fiber shield and preparation facilities thereof, belongs to optic fibre manufacturing technology field.

Background technology

Since the manufacturing technology of last century Mo Hungarian utility model non-light tight concrete, artificial transparent stone can the advantage such as natural daylight, transmission near object image, artistic display native texture thoroughly because possessing, and is constantly favored by common people and is applied to top-grade building and furnishing fields.At present, the light transmissive material being applied to artificial transparent stone mainly contains three kinds: silica fibre, plastic optical fiber and soda-lime-silica glass rod or fragment.The optical fiber mentioned as patent No. CN102166780B is a kind of organic multimode silica fibre, its diameter 50 μm/125 μm, skin polyethylene or polytetrafluoroethylene (PTFE) coating, and by 2D or 3D braid method, optical fiber is weaved into cloth; Patent No. CN102848451A mentions that optical fiber is the plastic optical fiber of diameter 0.5-1.5mm, and adopts cotton thread to be woven into single layer optical fiber cloth, optical fiber pitch 3-6mm; In industry, somebody directly adopts the broken rod of glass to fill stone material etc.Analyze above-mentioned light transmissive material, there are some problems in actual applications, the direct performance and application affecting artificial transparent stone is promoted, show: 1, silica fibre, numerical aperture little (0.22-0.37), its light and utilizing emitted light angle little, be unfavorable for light collection, visual effect is not good.And silica fibre general diameter thick (100um-1000um), top layer is coated with organic layer, is unfavorable for being formed comparatively high-bond with artificial stone.Though another silica fibre has high permeability, artificial stone uses optical fiber short (10mm-300mm), not easily embodies the low-loss optical advantage of silica fibre, and quartz is expensive, is unfavorable for application; 2, plastic optical fiber is organic material, for a long time can be aging, not only affects light transmission rate, also can affect artificial stone's internal intensity, occur the potential safety hazard split brick or collapse; 3, convenient for making stone material, though consider optical fiber to make optical fiber cloth, but its manufacture method mainly by optical fiber thicker for diameter directly or rely on various to be configured to stone material " keel ", or form cloth with the optical fiber of the fixing thicker diameter such as cotton thread, fiber, there is optical fiber pitch large, coherent line can not be formed luminous, illuminating shape mechanical limitations, random poor, art or the native texture of artificial transparent stone can not be represented very well.

Utility model content

In order to overcome light transmissive material and artificial stone's adhesion in prior art poor, be unfavorable for light collection, the luminous defect such as discontinuous, not ageing-resistant, the utility model provides a kind of artificial transparent stone enhanced fiber shield and preparation facilities thereof.

For solving the problem, the utility model adopts following technical scheme:

A kind of artificial transparent stone enhanced fiber shield, comprises radial optical fiber sheet, and radial optical fiber sheet is provided with more than twice and is interspersed in the broadwise stitching fiberglass yarn be stitched into one in radial optical fiber sheet and by radial optical fiber sheet; Radial optical fiber sheet restraints above glass optical fiber beam diameter to being closely consecutively arranged to form by two, glass optical fiber bundle is closely consecutively arranged to form by the glass optical fiber monofilament radial direction of more than two, glass optical fiber filament diameter is 30 μm-70 μm, and glass optical fiber monofilament surface is provided with chemical enhancer layer; The end of radial optical fiber sheet at least one end has length to be not more than the sizing section of 50mm.

Above-mentioned sizing section refers to, by adhesive or mechanical grip or fiberglass yarn, a certain section of entirety of radial optical fiber sheet closely be shaped, is connected as a single entity.Above-mentioned artificial transparent stone enhanced fiber shield can rolling on cylinder, when the setting of sizing section ensure that rolling, optical fiber cloth is not loose.

Above-mentioned artificial transparent stone enhanced fiber shield is ageing-resistant, long service life, has good adhesion with artificial stone, luminous naturally continuous, and significantly can strengthen Stone Strength.

Preferably, the two ends of radial optical fiber sheet and centre all have length to be not more than the sizing section of 50mm.Not only increase the bonding strength of shield like this, and the intensity of stone material can be strengthened.

Preferably, the wide of radial optical fiber sheet is 30-100cm, and thick is 1-5mm; The diameter that broadwise sews up fiberglass yarn is 0.8-2mm.So both easy to use, the intensity of shield can be ensured again.

Chemical enhancer layer is sprayed by the mixed solution of coupling agent and film forming agent or dipping forms.

The preferred silane coupler of above-mentioned coupling agent, film forming agent is preferably alkaline-resisting is enhanced to film.

Preferably, it is vertical with radial optical fiber sheet that broadwise sews up fiberglass yarn, and the spacing that adjacent twice broadwise is sewed up between fiberglass yarn is 4-8cm.

Further preferably, the alcoholic solution that chemical enhancer layer is mixed by KH-560 and oils derivative 1140 is prepared from, and wherein, in alcoholic solution, the mass content of KH-560 is 0.1-5%, the mass content of oils derivative 1140 is 0.1-10%.

Applicant finds after deliberation, and the setting of above-mentioned chemical enhancer layer not only makes the intensity of glass optical fiber monofilament, alkali resistance has had significant lifting, and is easily connected with inorganic or organic matter.

Above-mentioned fine shield is the optical fiber sheet being become certain thickness and width by the tight continuous arrangement of glass optical fiber warp-wise, more fixedly forms through spacing the connecting of broadwise stitching fiberglass yarn broadwise, and concrete weaving method has manually to weave to be weaved with machinery.

Artificial weaving method sews up fiberglass yarn broadwise by broadwise manually to make fixed fiber sheet, and concrete grammar is preferred: comprise the following steps that order connects:

1. radial for glass optical fiber monofilament closely continuous arrangement is become glass optical fiber bundle, then by glass optical fiber beam diameter to tight continuous arrangement radially optical fiber sheet;

2. to prepare by the mode of adhesive or mechanical grip or glass fibers suturing with thread management the sizing section that length is not more than 50mm in the end of radial optical fiber sheet at least one end;

3. the broadwise sewing up fiberglass yarn radially optical fiber sheet by broadwise sews up radial optical fiber sheet, to obtain final product.

In step 3. gained artificial transparent stone enhanced fiber shield underlay one deck wrapping paper or directly stand-by in rolling to reel.Said method also can first carry out step and 2. carry out step 3. again.

Machinery is weaved point discontinuous optical fiber pad and jointed fiber cloth and is weaved.

Discontinuous optical fiber pad weaving method, equipment therefor comprises optical fiber wire releasing device, tenslator, bus cable device and the wrap-up that order connects, wrap-up comprises winding wheel, winding wheel comprises main body wheel and the optical fiber broadwise separator along the peripheral axially setting of main body wheel, optical fiber broadwise separator has two or more, optical fiber broadwise separator comprises separator pedestal and separating needle, separator pedestal is the step-like of fluctuating and arranges along the axis that main body wheel is peripheral, and separating needle is distributed between adjacent two steps.

Utilize said apparatus to prepare the method for artificial transparent stone enhanced fiber shield, comprise the following steps that order connects:

What 1. concentrated light fibril cylinder is fixed on optical fiber wire releasing device puts on guide frame;

2. optical fiber is after optical fiber wire releasing device unwrapping wire, be wrapped on the optical fiber broadwise separator of wrap-up successively after tenslator and bus cable device, complete the warp-wise weaving of artificial transparent stone enhanced fiber shield, separating needle makes the optical fiber on optical fiber broadwise separator be " pectination ", and the step of fluctuating makes to form perforated position between optical fiber;

3. lead wire lever is fixed broadwise and sew up fiberglass yarn, introduce perforated position respectively;

4. adjust adjacent weft to sewing up the spacing of fiberglass yarn, and broadwise is sewed up the top of fiberglass yarn and terminal is tightened up fixing respectively, complete the broadwise braiding of artificial transparent stone enhanced fiber shield.

In adjacent weft to stitching glass fibre line shearing formation sheet shape artificial transparent stone enhanced fiber shield.Not only efficiency is high relative to manual method for said method, and has better controllability, and mechanical production methods has better controllability relatively continuously, reduces the loss of equipment.

The optical fiber broadwise separator that above-mentioned separating needle makes main body take turns is in " pectination ", and the step-like finger step of above-mentioned fluctuating is wavy, declines gradually again, circulate successively after rising gradually.

Above-mentioned step 1. before first debug and open optical fiber wire releasing device, tenslator, bus cable device and wrap-up, the concrete structure of optical fiber wire releasing device, tenslator and bus cable device is with reference to prior art.

The operation principle of discontinuous optical fiber pad weaving method is as follows: when the device is initiated, wrap-up starts rolling optical fiber, under bus cable device effect, optical fiber arranges in optical fiber sheet on wrap-up, complete the braiding of optical fiber warp-wise, adjacent differing heights interval step and be distributed in each adjacent separator of winding wheel surrounding under the double action of same radial direction (main body wheel shaft to) different interval shoulder height in optical fiber broadwise separator, optical fiber sheet circumferentially forms the staggered fluctuating of height at winding wheel, multilayer hole 0 hole is formed at optical fiber broadwise separator place, 1 hole, 2 holes, 3 holes, 4 holes etc., utilize lead wire lever broadwise to be sewed up fiberglass yarn and introduce hole, the broadwise that is strained and fixed sews up top and the terminal of fiberglass yarn, namely broadwise braiding is completed, lead wire lever is conventional rigid thin bar.

Preferably, the periphery of main body wheel is provided with gap slot vertically, and gap slot and optical fiber broadwise separator stagger and arrange.

The artificial transparent stone preparation method of enhanced fiber shield, also comprises and 5. utilizes the mode of adhesive or mechanical grip or glass fibers suturing with thread management to prepare sizing section at gap slot place.

Form sheet artificial transparent stone enhanced fiber shield in the cutting of gap slot place, rolling is stand-by.

Above-mentioned gap slot is used for cutting out optical fiber shield or sizing optical fiber shield, and gap slot quantity can more than one.

Jointed fiber cloth weaving method and conventional industry difference of weaving cotton cloth be heald frame carry fall be not line or rove but there is the optical fiber sheet of width and thickness.

Use the utility model shield when making transparent stone, directly cut out use, light transmission is good, and illuminating shape is naturally continuous, and can increase Stone Strength.

Preferably, separator pedestal is periodic undulations, is equipped with separating needle between every two adjacent steps.

Further preferably, optical fiber broadwise separator has 6, is equidistantly located at main body wheel peripheral; One of the separator pedestal cycle that rises and falls be decline 4 steps gradually again after rising 4 steps gradually.The width of gap slot is 30-50mm, and the degree of depth of gap slot is 40-70mm.

Preferably, the external diameter of main body wheel is 100-800mm, and more preferably, the external diameter of main body wheel is 440-460mm; Axial length is 480-520mm, and the height of each step is 0.8-1.8cm, and the wide of each step is 1.2-1.8cm.

The quantity in the fluctuating cycle of separator pedestal is according to decisions such as the width of required optical fiber shield.

Jointed fiber cloth weaving method and conventional industry difference of weaving cotton cloth be heald frame carry fall be not line or rove but there is the optical fiber sheet of width and thickness, jointed fiber cloth weaving method comprises: put silk (yarn) → feed → weave → batch, corresponding equipment is silk tub → warp stop frame → feeding unit → heald frame → reed → shuttle → yardage roll, different from conventional cloth according to optical fiber cloth, the thickness of optical fiber cloth is generally >=1mm, and knit without the need to sub-thread is close, therefore the heald frame in the production of jointed fiber cloth designs different from routine: conventional heald frame effect is put on loom by warp thread or falls, pass in order to weft yarn, it is yarn or line that conventional heald frame carries what fall, and this method to carry what fall be optical fiber sheet, this optical fiber sheet has certain width and thickness, therefore heald frame to carry yarn Interval Distance large, and the yarn that adjacent heald frame extracts is dislocation, adjacent two heald frames are respectively the first heald frame and the second heald frame, the optical fiber sheet that first heald frame extracts is 1st district, 3rd district, 5th district, the odd number districts such as 7th district, and the optical fiber sheet that the second heald frame extracts is 2nd district, 4th district, 6th district, the even number districts such as 8th district, such shuttle can complete broadwise braiding.

Can as required shield be woven into various shape or on shield, prepare various pattern, increase the aesthetic feeling of gained stone material during manufacture.

Applicant finds after deliberation: the reason that the utility model shield can strengthen artificial transparent stone intensity is: the raw material 1. forming glass optical fiber is with SiO ₂be main, containing Na ₂the metal oxides such as O, CaO, main component and stone material composition basically identical, the equal phase structure of stone material can not be destroyed; 2. diameter is that namely 30 μm of-70 μm of diameter optical fiber are beneficial to slurries or unsaturated-resin soaks between optical fiber, slurries or the optimum content of unsaturated-resin in stone material of adhesive effect can have been ensured again, because fibre diameter is excessively thick, the surface area that compares is little, slurries or unsaturated-resin relative quantity deficiency, in stone material, adhesive strength reduces; Fibre diameter is meticulous, and the surface area that compares is large, but slurries or unsaturated-resin not easily soak into, and adhesive effect is not good, and the thin light light transmittance of diameter declines; 3. after glass optical fiber chemical surface treatment, form the functional linkage be connected with organic or inorganic at optical fiber surface, ensure connectivity robustness.

The NM technology of the utility model is prior art.

The utility model artificial transparent stone enhanced fiber shield can when making transparent stone, and directly cut out use, facilitate practical operation, light transmission is good, and illuminating shape is naturally continuous, random good, and can increase stone material resistance to compression and impact strength; Ageing-resistant, acid and alkali-resistance, intensity are high, long service life, have good adhesion with artificial stone, are beneficial to light collection, luminous and significantly can strengthen Stone Strength naturally continuously, can represent art or the native texture of artificial transparent stone; With low cost, random good; The application preparation method device therefor is simple, easy to operate; The utility model preparation facilities structure is simple, easy to use, controllability is strong.

Accompanying drawing explanation

Fig. 1 is that the utility model artificial transparent stone strengthens optical fiber shield structural representation.

Fig. 2 is that the utility model artificial transparent stone strengthens optical fiber shield rolling schematic diagram.

Fig. 3 is that discontinuous preparation facilities schematic diagram weaved by machinery.

Fig. 4 is winding wheel structural representation.

Fig. 5 separates step schematic diagram in optical fiber broadwise separator.

Fig. 6 is the multidigit cavity schematic diagram that under the effect of optical fiber broadwise separator, broadwise is formed.

Fig. 7 is continuous mechanical preparation facilities schematic diagram.

Fig. 8 is continuous light machine harness frame structure schematic diagram for subsequent use.

In figure, 0 is radial optical fiber sheet, and 1 is broadwise stitching fiberglass yarn, 2 is sizing section, and 3 is cylinder, and 4 is optical fiber wire releasing device, 5 is tenslator, and 6 is bus cable device, and 7 is wrap-up, 71 is main body wheel, 72 is optical fiber broadwise separator, and 721 is separator pedestal, and 722 is separating needle, 73 is gap slot, 8 is silk tub, and 9 is warp stop frame, and 10 is feeding unit, 11 is heald frame, 111 is the first heald frame, and 112 is the second heald frame, and 12 is reed, 13 is shuttle, and 14 is yardage roll.

Specific embodiment

In order to understand the utility model better, illustrate content of the present utility model further below in conjunction with embodiment, but content of the present utility model is not only confined to the following examples.

Embodiment 1

Artificial transparent stone enhanced fiber shield, comprises radial optical fiber sheet, and radial optical fiber sheet is provided with more than twice and is interspersed in the broadwise stitching fiberglass yarn be stitched into one in radial optical fiber sheet and by radial optical fiber sheet; Radial optical fiber sheet restraints above glass optical fiber beam diameter to being closely consecutively arranged to form by two, glass optical fiber bundle is closely consecutively arranged to form by the glass optical fiber monofilament radial direction of more than two, glass optical fiber filament diameter is 50 μm, glass optical fiber monofilament surface is provided with chemical enhancer layer, radial optical fiber sheet is that glass optical fiber monofilament close-packed arrays forms by 380000 length 1400mm together, the spacing that adjacent twice broadwise is sewed up between fiberglass yarn is 5cm, and broadwise is sewed up fiberglass yarn and had 28; The end at radial optical fiber sheet two ends all has length to be the sizing section of 20mm.

Radial the wide of optical fiber sheet is 500cm, and thick is 1.5mm; The diameter that broadwise sews up fiberglass yarn is 1mm.

The alcoholic solution that chemical enhancer layer is mixed by KH-560 and oils derivative 1140 is prepared from, and wherein, in alcoholic solution, the mass content of KH-560 is 1%, the mass content of oils derivative 1140 is 2%, adopts spraying method directly to process, then dries.

When preparing by hand, the preparation method of above-mentioned artificial transparent stone enhanced fiber shield, comprises the following steps that order connects:

1. 380000 optical fiber are evenly divided into 100 strands of fibre bundles, become width × length to be the radial optical fiber sheet of 1.5 × 500mm by warp-wise close-packed arrays;

2. first to shape optical fiber at E=20mm place, optical fiber sheet two ends silica gel 705, setting section length 5mm, after cured, then the optical fiber sheet termination leaching epoxy E-51 glue before silica gel, whole setting section bit length is 20mm;

3. be that the broadwise of 1mm is sewed up fiberglass yarn broadwise Equally spaced and connected fixed radial optical fiber sheet by diameter by taking manually to make way, parallel spacing is 5cm;

4. stand-by on optical fiber sheet underlay one deck wrapping paper or direct rolling to reel.

Above-mentioned artificial transparent stone enhanced fiber shield is also prepared by following discontinuous process:

Equipment therefor comprises the optical fiber wire releasing device that order connects, tenslator, bus cable device and wrap-up, wrap-up comprises winding wheel, winding wheel comprises main body wheel and the optical fiber broadwise separator along the peripheral axial spaced set of main body wheel, optical fiber broadwise separator has 6, optical fiber broadwise separator comprises separator pedestal and separating needle, separator pedestal is the step-like of fluctuating, and in periodic undulations, one of the separator pedestal cycle that rises and falls be decline 4 steps gradually again after rising 4 steps gradually, separating needle is distributed between every two adjacent two steps, the height of each step is 1.5cm, the wide of each step is 1.6cm, the periphery of main body wheel is provided with gap slot vertically, and gap slot and optical fiber broadwise separator stagger and arrange, and gap slot width is 40mm, and the degree of depth of gap slot is 55mm, and main body wheel diameter is 450mm, and width is 500mm,

Separator pedestal in optical fiber broadwise separator has interval step 4a, 3a, 2a, 1a, 0a, 1b, 2b, 3b, 4b, 3c, 2c, 1c, 0d, 1d, 2d, 3d, 4d, 3e, 2e, 1e, step width is 25mm, every rank shoulder height is 10mm, adjacent increasing or decreasing step by step, and have periodically;

Preparation method comprises the following steps that order connects:

1. debug and open each device, what concentrated light fibril cylinder is fixed on optical fiber wire releasing device puts on guide frame;

2. optical fiber is after optical fiber wire releasing device unwrapping wire, be wrapped on the optical fiber broadwise separator of wrap-up successively after tenslator and bus cable device, complete the warp-wise weaving of artificial transparent stone enhanced fiber shield, separating needle makes the optical fiber on optical fiber broadwise separator be " pectination ", and the step of fluctuating makes to form perforated position between optical fiber;

3. lead wire lever is fixed broadwise and sew up fiberglass yarn, introduce 5 layers of hole, 0 hole respectively, 1 hole, 2 holes, 3 holes, 4 holes;

4. adjust adjacent weft to sewing up the spacing of fiberglass yarn, and broadwise is sewed up the top of fiberglass yarn and terminal and tighten up respectively and fix optical fiber shield, complete the broadwise braiding of artificial transparent stone enhanced fiber shield;

5. utilize production of adhesive to shape section at gap slot place, and at gap slot place cutting optical fiber shield, rolling, stand-by;

Above-mentioned artificial transparent stone enhanced fiber shield adopts jointed fiber cloth weaving method consistent with the method for weaving cotton cloth of weaving cotton cloth in industry, flow process comprises: put silk (yarn) → feed → weave → batch, corresponding equipment is silk tub 8 → warp stop frame 9 → feeding unit 10 → heald frame 11 → reed 12 → shuttle 13 → yardage roll 14, heald frame 11 in production carries yarn interval, and to be divided into 50mm wide, comprise the first heald frame 111 and the second heald frame 112, the optical fiber sheet that first heald frame extracts is 1st district, 3rd district, 5th district, the odd number districts such as 7th district, and the optical fiber sheet that the second heald frame extracts is 2nd district, 4th district, 6th district, the even number districts such as 8th district.

Embodiment 2

Substantially the same manner as Example 1, difference is: glass optical fiber filament diameter is 30 μm; Radial the wide of optical fiber sheet is 30cm, and thick is 1mm; The diameter that broadwise sews up fiberglass yarn is 0.8mm.The spacing that adjacent twice broadwise is sewed up between fiberglass yarn is 4cm; The width of gap slot is 30mm, and the degree of depth of gap slot is 40mm; The height of each step is 0.6cm, and wide is 2cm;

The alcoholic solution that chemical enhancer layer is mixed by KH-560 and oils derivative 1140 is prepared from, and wherein, in alcoholic solution, the mass content of KH-560 is 0.1%, the mass content of oils derivative 1140 is 0.1%.

Embodiment 3

Substantially the same manner as Example 1, difference is: glass optical fiber filament diameter is 70 μm; Radial the wide of optical fiber sheet is 100cm, and thick is 3mm; The diameter that broadwise sews up fiberglass yarn is 2mm.The spacing that adjacent twice broadwise is sewed up between fiberglass yarn is 8cm; The width of gap slot is 50mm, and the degree of depth of gap slot is 70mm; The height of each step is 2cm, and wide is 3cm;

The alcoholic solution that chemical enhancer layer is mixed by KH-560 and oils derivative 1140 is prepared from, and wherein, in alcoholic solution, the mass content of KH-560 is 5%, the mass content of oils derivative 1140 is 10%.

Marble prepared by the shield (mechanical discontinuous manufacture) adopting the various embodiments described above to obtain, concrete technology is in marble casting mold, cast one deck marble raw material slurry, then one deck shield is spread, adjacent two layers shield is spaced apart 2cm, cut after coagulation forming, the face that the vertical and shield of cut direction tiles, i.e. longitudinally cutting, specification after cutting is 1200mmx900mmx15mm, marble raw material slurry, casting mold and other technique are all with reference to prior art, prepared marmorean performance is as shown in table 1, and adopt specification in prior art be the artificial marble of 1200mmx900mmx15mm as a comparison.

The marmorean performance table of table 1 prepared by each embodiment gained shield

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Claims (8)

1. an artificial transparent stone enhanced fiber shield, is characterized in that: comprise radial optical fiber sheet, and radial optical fiber sheet is provided with more than twice and is interspersed in the broadwise stitching fiberglass yarn be stitched into one in radial optical fiber sheet and by radial optical fiber sheet; Radial optical fiber sheet restraints above glass optical fiber beam diameter to being closely consecutively arranged to form by two, glass optical fiber bundle is closely consecutively arranged to form by the glass optical fiber monofilament radial direction of more than two, glass optical fiber filament diameter is 30 μm-70 μm, and glass optical fiber monofilament surface is provided with chemical enhancer layer; The end of radial optical fiber sheet at least one end has length to be not more than the sizing section of 50mm.

2. artificial transparent stone enhanced fiber shield as claimed in claim 1, is characterized in that: the two ends of radial optical fiber sheet and centre all have length to be not more than the sizing section of 50mm.

3. artificial transparent stone enhanced fiber shield as claimed in claim 1 or 2, is characterized in that: the wide of radial optical fiber sheet is 30-100cm, and thick is 1-5mm.

4. artificial transparent stone enhanced fiber shield as claimed in claim 1 or 2, it is characterized in that: the diameter that broadwise sews up fiberglass yarn is 0.8-2mm, the spacing that adjacent twice broadwise is sewed up between fiberglass yarn is 4-8cm.

5. prepare the device of the enhanced fiber shield of the artificial transparent stone described in claim 1-4 any one, it is characterized in that: comprise the optical fiber wire releasing device that order connects, tenslator, bus cable device and wrap-up, wrap-up comprises winding wheel, winding wheel comprises main body wheel and the optical fiber broadwise separator along the peripheral axially setting of main body wheel, optical fiber broadwise separator has two or more, optical fiber broadwise separator comprises separator pedestal and separating needle, separator pedestal is the step-like of fluctuating, and arrange along the axis that main body wheel is peripheral, separating needle is distributed between adjacent two steps, the height of each step is 0.8-1.8cm, the wide of each step is 1.2-1.8cm.

6. device as claimed in claim 5, is characterized in that: the height of each step is 1.2-1.6cm.

7. device as claimed in claim 6, is characterized in that: the wide of each step is 1.4-1.7cm.

8. device as claimed in claim 7, is characterized in that: axial length is 480-520mm, and the external diameter of main body wheel is 440-460mm.